/******************************************************************** * COPYRIGHT: * Copyright (c) 1997-2001, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ #include "cmemory.h" #include "unicode/coll.h" #include "unicode/tblcoll.h" #include "unicode/unistr.h" #include "unicode/sortkey.h" #include "itercoll.h" #include "unicode/schriter.h" #include "unicode/chariter.h" #define ARRAY_LENGTH(array) (sizeof array / sizeof array[0]) static UErrorCode status = U_ZERO_ERROR; CollationIteratorTest::CollationIteratorTest() : test1("What subset of all possible test cases?", ""), test2("has the highest probability of detecting", "") { en_us = (RuleBasedCollator *)Collator::createInstance(Locale::US, status); } CollationIteratorTest::~CollationIteratorTest() { delete en_us; } /** * Test for CollationElementIterator previous and next for the whole set of * unicode characters. */ void CollationIteratorTest::TestUnicodeChar() { CollationElementIterator *iter; UChar codepoint; UnicodeString source; for (codepoint = 1; codepoint < 0xFFFE;) { source.remove(); while (codepoint % 0xFF != 0) { if (u_isdefined(codepoint)) source += codepoint; codepoint ++; } if (u_isdefined(codepoint)) source += codepoint; if (codepoint != 0xFFFF) codepoint ++; iter = en_us->createCollationElementIterator(source); /* A basic test to see if it's working at all */ backAndForth(*iter); delete iter; } } /** * Test for CollationElementIterator.previous() * * @bug 4108758 - Make sure it works with contracting characters * */ void CollationIteratorTest::TestPrevious(/* char* par */) { UErrorCode status = U_ZERO_ERROR; CollationElementIterator *iter = en_us->createCollationElementIterator(test1); // A basic test to see if it's working at all backAndForth(*iter); delete iter; // Test with a contracting character sequence UnicodeString source; RuleBasedCollator *c1 = NULL; c1 = new RuleBasedCollator( (UnicodeString)"&a,A < b,B < c,C, d,D < z,Z < ch,cH,Ch,CH", status); if (c1 == NULL || U_FAILURE(status)) { errln("Couldn't create a RuleBasedCollator with a contracting sequence."); delete c1; return; } source = "abchdcba"; iter = c1->createCollationElementIterator(source); backAndForth(*iter); delete iter; delete c1; // Test with an expanding character sequence RuleBasedCollator *c2 = NULL; c2 = new RuleBasedCollator((UnicodeString)"&a < b < c/abd < d", status); if (c2 == NULL || U_FAILURE(status)) { errln("Couldn't create a RuleBasedCollator with an expanding sequence."); delete c2; return; } source = "abcd"; iter = c2->createCollationElementIterator(source); backAndForth(*iter); delete iter; delete c2; // Now try both RuleBasedCollator *c3 = NULL; c3 = new RuleBasedCollator((UnicodeString)"&a < b < c/aba < d < z < ch", status); if (c3 == NULL || U_FAILURE(status)) { errln("Couldn't create a RuleBasedCollator with both an expanding and a contracting sequence."); delete c3; return; } source = "abcdbchdc"; iter = c3->createCollationElementIterator(source); backAndForth(*iter); delete iter; delete c3; status=U_ZERO_ERROR; source= CharsToUnicodeString("\\u0e41\\u0e02\\u0e41\\u0e02\\u0e27abc"); Collator *c4 = Collator::createInstance(Locale("th", "TH", ""), status); if(U_FAILURE(status)){ errln("Couldn't create a collator"); } iter = ((RuleBasedCollator*)c4)->createCollationElementIterator(source); backAndForth(*iter); delete iter; delete c4; source= CharsToUnicodeString("\\u0061\\u30CF\\u3099\\u30FC"); Collator *c5 = Collator::createInstance(Locale("ja", "JP", ""), status); iter = ((RuleBasedCollator*)c5)->createCollationElementIterator(source); if(U_FAILURE(status)){ errln("Couldn't create Japanese collator\n"); } backAndForth(*iter); delete iter; delete c5; } /** * Test for getOffset() and setOffset() */ void CollationIteratorTest::TestOffset(/* char* par */) { CollationElementIterator *iter = en_us->createCollationElementIterator(test1); // Run all the way through the iterator, then get the offset int32_t orderLength = 0; int32_t *orders = getOrders(*iter, orderLength); int32_t offset = iter->getOffset(); if (offset != test1.length()) { UnicodeString msg1("offset at end != length: "); UnicodeString msg2(" vs "); errln(msg1 + offset + msg2 + test1.length()); } // Now set the offset back to the beginning and see if it works CollationElementIterator *pristine = en_us->createCollationElementIterator(test1); UErrorCode status = U_ZERO_ERROR; iter->setOffset(0, status); if (U_FAILURE(status)) { errln("setOffset failed."); } else { assertEqual(*iter, *pristine); } // TODO: try iterating halfway through a messy string. delete pristine; delete[] orders; delete iter; } /** * Test for setText() */ void CollationIteratorTest::TestSetText(/* char* par */) { CollationElementIterator *iter1 = en_us->createCollationElementIterator(test1); CollationElementIterator *iter2 = en_us->createCollationElementIterator(test2); UErrorCode status = U_ZERO_ERROR; // Run through the second iterator just to exercise it int32_t c = iter2->next(status); int32_t i = 0; while ( ++i < 10 && c != CollationElementIterator::NULLORDER) { if (U_FAILURE(status)) { errln("iter2->next() returned an error."); delete iter2; delete iter1; } c = iter2->next(status); } // Now set it to point to the same string as the first iterator iter2->setText(test1, status); if (U_FAILURE(status)) { errln("call to iter2->setText(test1) failed."); } else { assertEqual(*iter1, *iter2); } iter1->reset(); //now use the overloaded setText(ChracterIterator&, UErrorCode) function to set the text CharacterIterator* chariter = new StringCharacterIterator(test1); iter2->setText(*chariter, status); if (U_FAILURE(status)) { errln("call to iter2->setText(chariter(test1)) failed."); } else { assertEqual(*iter1, *iter2); } delete chariter; delete iter2; delete iter1; } /** @bug 4108762 * Test for getMaxExpansion() */ void CollationIteratorTest::TestMaxExpansion(/* char* par */) { UErrorCode status = U_ZERO_ERROR; UnicodeString rule("&a < ab < c/aba < d < z < ch"); RuleBasedCollator *coll = new RuleBasedCollator(rule, status); UChar ch = 0; UnicodeString str(ch); CollationElementIterator *iter = coll->createCollationElementIterator(str); while (ch < 0xFFFF && U_SUCCESS(status)) { int count = 1; uint32_t order; ch ++; UnicodeString str(ch); iter->setText(str, status); order = iter->previous(status); /* thai management */ if (order == 0) order = iter->previous(status); while (U_SUCCESS(status) && iter->previous(status) != (int32_t)UCOL_NULLORDER) { count ++; } if (U_FAILURE(status) && iter->getMaxExpansion(order) < count) { errln("Failure at codepoint %d, maximum expansion count < %d\n", ch, count); } } delete iter; delete coll; } /* * @bug 4157299 */ void CollationIteratorTest::TestClearBuffers(/* char* par */) { UErrorCode status = U_ZERO_ERROR; RuleBasedCollator *c = new RuleBasedCollator((UnicodeString)"&a < b < c & ab = d", status); if (c == NULL || U_FAILURE(status)) { errln("Couldn't create a RuleBasedCollator."); delete c; return; } UnicodeString source("abcd"); CollationElementIterator *i = c->createCollationElementIterator(source); int32_t e0 = i->next(status); // save the first collation element if (U_FAILURE(status)) { errln("call to i->next() failed. err=%s", u_errorName(status)); } else { i->setOffset(3, status); // go to the expanding character if (U_FAILURE(status)) { errln("call to i->setOffset(3) failed. err=%s", u_errorName(status)); } else { i->next(status); // but only use up half of it if (U_FAILURE(status)) { errln("call to i->next() failed. err=%s", u_errorName(status)); } else { i->setOffset(0, status); // go back to the beginning if (U_FAILURE(status)) { errln("call to i->setOffset(0) failed. err=%s", u_errorName(status)); } else { int32_t e = i->next(status); // and get this one again if (U_FAILURE(status)) { errln("call to i->next() failed. err=%s", u_errorName(status)); } else if (e != e0) { errln("got 0x%X, expected 0x%X", e, e0); } } } } } delete i; delete c; } /** * Testing the assignment operator */ void CollationIteratorTest::TestAssignment() { UErrorCode status = U_ZERO_ERROR; RuleBasedCollator *coll = (RuleBasedCollator *)Collator::createInstance(status); if (coll == NULL || U_FAILURE(status)) { errln("Couldn't create a default collator."); return; } UnicodeString source("abcd"); CollationElementIterator *iter1 = coll->createCollationElementIterator(source); CollationElementIterator iter2 = *iter1; if (*iter1 != iter2) { errln("Fail collation iterator assignment does not produce the same elements"); } CollationElementIterator iter3(*iter1); if (*iter1 != iter3) { errln("Fail collation iterator copy constructor does not produce the same elements"); } delete iter1; delete coll; } /** * Testing the constructors */ void CollationIteratorTest::TestConstructors() { UErrorCode status = U_ZERO_ERROR; RuleBasedCollator *coll = (RuleBasedCollator *)Collator::createInstance(status); if (coll == NULL || U_FAILURE(status)) { errln("Couldn't create a default collator."); return; } // testing protected constructor with character iterator as argument StringCharacterIterator chariter(test1); CollationElementIterator *iter1 = coll->createCollationElementIterator(chariter); if (U_FAILURE(status)) { errln("Couldn't create collation element iterator with character iterator."); return; } CollationElementIterator *iter2 = coll->createCollationElementIterator(test1); assertEqual(*iter1, *iter2); delete iter1; delete iter2; delete coll; } /** * Testing the strength order */ void CollationIteratorTest::TestStrengthOrder() { int order = 0x0123ABCD; UErrorCode status = U_ZERO_ERROR; RuleBasedCollator *coll = (RuleBasedCollator *)Collator::createInstance(status); if (coll == NULL || U_FAILURE(status)) { errln("Couldn't create a default collator."); return; } coll->setStrength(Collator::PRIMARY); CollationElementIterator *iter = coll->createCollationElementIterator(test1); if (iter == NULL) { errln("Couldn't create a collation element iterator from default collator"); return; } if (iter->strengthOrder(order) != 0x01230000) { errln("Strength order for a primary strength collator should be the first 2 bytes"); return; } coll->setStrength(Collator::SECONDARY); if (iter->strengthOrder(order) != 0x0123AB00) { errln("Strength order for a secondary strength collator should be the third byte"); return; } coll->setStrength(Collator::TERTIARY); if (iter->strengthOrder(order) != order) { errln("Strength order for a tertiary strength collator should be the third byte"); return; } delete iter; delete coll; } void CollationIteratorTest::backAndForth(CollationElementIterator &iter) { // Run through the iterator forwards and stick it into an array int32_t orderLength = 0; int32_t *orders = getOrders(iter, orderLength); UErrorCode status = U_ZERO_ERROR; // Now go through it backwards and make sure we get the same values int32_t index = orderLength; int32_t o; // reset the iterator iter.reset(); while ((o = iter.previous(status)) != CollationElementIterator::NULLORDER) { if (o != orders[--index]) { if (o == 0) index ++; else { while (index > 0 && orders[--index] == 0) { } if (o != orders[index]) { errln("Mismatch at index %d: 0x%X vs 0x%X", index, orders[index], o); break; } } } } while (index != 0 && orders[index - 1] == 0) { index --; } if (index != 0) { UnicodeString msg("Didn't get back to beginning - index is "); errln(msg + index); iter.reset(); err("next: "); while ((o = iter.next(status)) != CollationElementIterator::NULLORDER) { UnicodeString hexString("0x"); appendHex(o, 8, hexString); hexString += " "; err(hexString); } errln(""); err("prev: "); while ((o = iter.previous(status)) != CollationElementIterator::NULLORDER) { UnicodeString hexString("0x"); appendHex(o, 8, hexString); hexString += " "; err(hexString); } errln(""); } delete[] orders; } /** * Return an integer array containing all of the collation orders * returned by calls to next on the specified iterator */ int32_t *CollationIteratorTest::getOrders(CollationElementIterator &iter, int32_t &orderLength) { int32_t maxSize = 100; int32_t size = 0; int32_t *orders = new int32_t[maxSize]; UErrorCode status = U_ZERO_ERROR; int32_t order; while ((order = iter.next(status)) != CollationElementIterator::NULLORDER) { if (size == maxSize) { maxSize *= 2; int32_t *temp = new int32_t[maxSize]; uprv_memcpy(temp, orders, size * sizeof(int32_t)); delete[] orders; orders = temp; } orders[size++] = order; } if (maxSize > size) { int32_t *temp = new int32_t[size]; memcpy(temp, orders, size * sizeof(int32_t)); delete[] orders; orders = temp; } orderLength = size; return orders; } /** * Return a string containing all of the collation orders * returned by calls to next on the specified iterator */ UnicodeString &CollationIteratorTest::orderString(CollationElementIterator &iter, UnicodeString &target) { int32_t order; UErrorCode status = U_ZERO_ERROR; while ((order = iter.next(status)) != CollationElementIterator::NULLORDER) { target += "0x"; appendHex(order, 8, target); target += " "; } return target; } void CollationIteratorTest::assertEqual(CollationElementIterator &i1, CollationElementIterator &i2) { int32_t c1, c2, count = 0; UErrorCode status = U_ZERO_ERROR; do { c1 = i1.next(status); c2 = i2.next(status); if (c1 != c2) { errln(" %d: strength(0x%X) != strength(0x%X)", count, c1, c2); break; } count += 1; } while (c1 != CollationElementIterator::NULLORDER); } void CollationIteratorTest::runIndexedTest(int32_t index, UBool exec, const char* &name, char* /*par*/) { if (exec) { logln("Collation Iteration Tests: "); } switch (index) { case 0: name = "TestPrevious"; if (exec) TestPrevious(/* par */); break; case 1: name = "TestOffset"; if (exec) TestOffset(/* par */); break; case 2: name = "TestSetText"; if (exec) TestSetText(/* par */); break; case 3: name = "TestMaxExpansion"; if (exec) TestMaxExpansion(/* par */); break; case 4: name = "TestClearBuffers"; if (exec) TestClearBuffers(/* par */); break; case 5: name = "TestUnicodeChar"; if (exec) TestUnicodeChar(/* par */); break; case 6: name = "TestAssignment"; if (exec) TestAssignment(/* par */); break; case 7: name = "TestConstructors"; if (exec) TestConstructors(/* par */); break; case 8: name = "TestStrengthOrder"; if (exec) TestStrengthOrder(/* par */); break; default: name = ""; break; } }